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1.
湖北省随州花山蛇绿混杂岩Sm—Nd、Rb—Sr同位素年代研究 总被引:2,自引:0,他引:2
对湖北省随州地区组成花山蛇绿混杂岩的杨家棚MORB型火山岩、小阜岛弧型火山岩进行了Sm-Nd、Rb-Sr同位素分析。由杨家棚地区火山岩样品得出的全岩Sm-Nd等时线年龄为1736±37(2σ)Ma,I_(Nd)=0.510582±42(2σ),ε_(Nd)(t)=+3.7;由小阜火山岩样品得出的全岩Sm-Nd等时线年龄为1197±170(2σ) Ma,I_(Nd)=0.51125±18(2σ),ε_(Nd)(t)=+3.1;小阜火山岩样品全岩Rb-Sr等时线年龄为737±31(2σ)Ma,I_(sr)=0.7052±13(2σ)。这些结果表明花山洋盆的形成时间可能为中元古代,而非古生代;737Ma指示了其后期的变质年龄。 相似文献
2.
对湖北省随州地区组成花山蛇绿混杂岩的杨家棚MORB型辉长岩进行了RbSr同位素分析,其矿物(辉石、斜长石)等时线年龄为435±49(2σ)Ma,ISr为0.70516±28(2σ),与该地区出露的三里岗二长花岗岩的RbSr等时线年龄(422Ma)在误差范围内是一致的;反映了该地区在加里东期曾受到强烈地质事件的作用,并进一步表明花山洋盆可能是一个形成年龄较老的洋盆,以前有关花山洋盆存在时限(海西印支期)的推测在这里没有得到确证。 相似文献
3.
对西藏亚东淡色花岗岩Rb-Sr和Sm-Nd同位素的详细研究表明,亚东淡色花岗岩Rb-Sr和Sm-Nd同位素组成十分不均匀,其初始Sr值和ε-(Nd)(13 Ma)分别介于0.756~0.775和-11.6~-16.3。由于存在着显著的同位素变异,而难以获得其全岩Rb-Sr等时线年龄。但研究获得了12.9±0.95Ma矿物—全岩Rb-Sr等时线年龄,其锶初始值为0.7744±0.0008,该年龄可以与高喜马拉雅带其他淡色花岗岩的年龄对比。Rb-Sr和Sm-Nd同位素组成显示亚东淡色花岗岩的源岩很可能是聂拉木群副变质岩。年龄统计分析表明,喜马拉雅淡色花岗岩是在地壳伸展和快速隆起背景下形成的,因此它的形成年龄是碰撞造山后地壳强烈活动和快速隆起的重要标志。 相似文献
4.
辽西义县组火山岩40Ar/39Ar、K-Ar法年龄测定 总被引:35,自引:3,他引:35
义县组为辽西地区广泛分布的陆相火山-沉积地层,义县火山旋回分为 4个亚旋回.含珍稀化石的湖相沉积层与第二亚旋回火山岩伴生.运用激光微区 40Ar/39Ar法、常规 40Ar/39Ar阶段升温测年法和 K- Ar法,对义县旋回火山岩进行了系统的年龄测定,结果表明,直接覆盖义县组底砾岩的义县旋回第一亚旋回第一小旋回玄武岩的 K- Ar年龄为 (133.3± 2.6) Ma、 (133.6± 2.6) Ma,激光微区 40Ar/39Ar法给出的相关性很好的 Ar- Ar等时线年龄为 (132.9± 4.5) Ma,第三、第四小旋回玄武岩样品 40Ar/39Ar阶段升温获得平坦的年龄谱线,坪年龄分别为 (130.6± 0.5) Ma、 (127.7± 0.2) Ma;第二亚旋回玄武岩和流纹质凝灰岩样品 Ar- Ar等时线年龄为 (126.1± 1.7) Ma、 (127.4± 1.3) Ma,第三亚旋回火山岩全岩 K- Ar年龄为 (124.4± 2.4)~ (124.9± 2.4) Ma.义县火山旋回发生的时间大致介于 120~ 135 Ma之间, 义县组的时代应为早白垩世. 相似文献
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河北矾山钾质碱性超镁铁岩—正长岩杂岩体Sm—Nd年龄和Sr、Nd同位素特征 总被引:13,自引:11,他引:13
河北矾山侵入杂岩,由层状钾质超镁铁岩--正长岩组成,已知它含有大型磁铁矿磷灰石矿床.现在已测定了岩体的岩石和矿物的Sm-Nd同位素资料,并获得了杂岩体的Sm-Nd同位素年龄.4个矿物样品和2个全岩样品Sm-Nd等时线年龄为243.4±9.7Ma,INd=0.512045,εNd(t)=-5.4;4个矿物样品和7个全岩样品等时线年龄为239±19Ma,INd=0.512055,εNd(t)=-5.3.这些年龄资料表明,矾山岩体可能侵位于早三叠.而矾山岩体的Rb-Sr等时线年龄为218±8Ma,Isr=0.70554,εsr=18.4的事实可能暗示矾山岩体在中三叠才完全固结并达到Rb-Sr体系封闭的温度.上述矾山岩体的Sr、Nd同位素特征表明,矾山岩体的物质源自富集的上地幔. 相似文献
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念青唐古拉花岗岩的同位素年龄测定及其地质意义 总被引:3,自引:0,他引:3
念青唐古拉花岗岩体位于西藏当雄县境内,是拉萨地块中部出露的巨型侵入岩岩基,其面积超过1500km2,以大面积出露的黑云母二长花岗岩为主体。本文分别应用单矿物K-Ar法、全岩-单矿物Rb-Sr等时线法和高灵敏度高分辨率离子探针法(SHRIMP-)对念青唐古拉岩体不同位置上的代表性岩石样品进行同位素测年,得到中细粒黑云母二长花岗岩的K-Ar年龄为8.49±0.14Ma,Rb-Sr等时线年龄为8.07±0.35Ma和8.70±1.40Ma,SHRIMPU-Pb年龄为18.3±0.4Ma;中粗粒黑云母二长花岗岩的K-Ar年龄为9.80±0.35Ma,Rb-Sr等时线年龄为9.33±0.41Ma,SHRIMPU-Pb年龄为11.01±0.24Ma。不同方法测年结果均表明念青唐古拉花岗岩形成于中新世,属拉萨地块内部最年轻的巨型花岗岩岩基,其侵位结晶时代处于青藏高原地壳由南北向挤压增厚向东西向伸展的转变时期,岩浆来源于地壳局部熔融,属后碰撞构造-岩浆活动的产物。 相似文献
7.
河南洛宁太华岩群斜长角闪岩的锆石^207Pb/^206Pb和角闪石^40Ar/^39Ar年龄 总被引:2,自引:0,他引:2
运用单颗粒锆石逐层蒸发法和角闪石40Ar/39Ar阶段加热法研究了河南洛宁太华岩群斜长角闪岩的同位素年龄.获得锆石207Pb/206Pb年龄为2675±2 Ma,角闪石40Ar/39Ar坪年龄和等时线年龄分别为2372.98±47.46 Ma和2349.10±46.98 Ma.锆石207Pb/206Pb年龄代表了斜长角闪岩原岩的形成时代,而角闪石40Ar/39Ar年龄则为其变质时代,与Sm-Nd等时线年龄(2351±103Ma)相一致.上述年龄数据表明河南洛宁地区太华岩群形成于新太古代,在古元古代遭受过一次角闪岩相变质作用. 相似文献
8.
马厂箐矿集区铜、钼、金矿化之间的关系对于认识该矿床的成矿作用过程及地质勘查具有重要意义。利用40Ar-39Ar同位素定年方法对乱硐山矿段夕卡岩型铜钼金矿化和人头箐矿段蚀变岩型金矿石中热液白云母进行同位素定年,得到夕卡岩化矿石中白云母样品(B119)40Ar-39Ar坪年龄为35.25±0.36Ma,等时线年龄为35.0±1.8Ma,反等时线年龄为34.8±1.9Ma。蚀变岩型金矿化矿石中白云母样品(B118)40Ar-39Ar坪年龄为35.35±0.32Ma,等时线年龄为34.44±0.99Ma,反等时线年龄为34.4±1.2Ma。这与正长斑岩(35.6±0.3Ma)、花岗斑岩(35.0±0.2Ma)、斑岩型铜钼矿化成矿年龄(35.8±1.6Ma)和(33.9±1.1Ma)较为一致,显示马厂箐铜钼金矿床与正长(斑)岩+二长(斑)岩+花岗斑岩+斑状花岗岩岩性组合有关,铜钼金成矿属于同一个构造—岩浆—成矿系统的产物。 相似文献
9.
塔里木地台西南缘皮山县煌斑岩脉群为超钾系列的煌斑岩,侵位于元古宇角门片岩中。经~(40)Ar/~(39)Ar法测定,煌斑岩中金云母的等时线年龄为(231.7±0.3)Ma,全岩等时线年龄为(228.5±0.3)Ma。地球化学数据指示其源区为受俯冲 相似文献
10.
阜平群下部太古代变质岩石的REE、Rb-Sr和Sm-Nd年龄及其意义 总被引:16,自引:0,他引:16
对采自阜平群下部16个变质岩石样品进行了Sm-Nd年龄测定,部分样品还进行了Rb-Sr年龄测定和REE分析。Sm-Nd同位素结果形成两条等时线。一条等时线具有年龄为:2790±171(2σ)Ma,I_(Nd)=0.50917±16(2σ),ε_(Nd)(t)=±1.6;另一条等时线,t=1949±84(2σ)Ma,I_(Nd)=0.50986±5(2σ),ε_(Nd)(t)=-5.0±1.0。Rb-Sr同位素数据分散,参考等时线年龄为2070Ma。 相似文献
11.
40Ar/39Ar Geochronology of Volcanic and Intrusive Rocks in the Papandayan Metallic Prospect Area,West Java,Indonesia 
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下载免费PDF全文 Anastasia Dewi Titisari David Phillips Prayatna Eko Purwanto Setyaraharja 《Resource Geology》2017,67(1):53-71
This study presents new 40Ar/39Ar ages on the volcanic and intrusive rocks from the Papandayan metallic district in West Java, Indonesia. The vein system in the Arinem area, one of the prospective areas in the district, has been considered as an epithermal gold–silver–base metal deposit, however, no published age results are available for the host volcanic rocks in the district. The ages of these rocks are critical in terms of their association with mineralization and are important to understand the evolution of volcanism in the region, which has implications for mineral exploration in the district. 40Ar/39Ar plateau ages of two typical basalt and one andesite samples of the Jampang Formation volcanic rocks yielded ages of 11.65 ± 0.52 Ma, 18.15 ± 0.46 Ma and 7.69 ± 0.05 Ma, respectively. 40Ar/39Ar ages of three intrusive rock samples from Gunung Halang diorite, Gunung Lingga diorite, and Gunung Buligir fine‐grained quartz diorite yielded ages of 12.98 ± 0.20 Ma, 10.81 ± 0.15 Ma, and 7.37 ± 0.05 Ma, respectively. The age of the youngest fine‐grained diorite (Gunung Wayang dike) is 3.95 ± 0.03 Ma. An 40Ar/39Ar age obtained from adularia in the Arinem mineralized vein (18.30 ± 0.20 Ma) is older than the age of altered basalt sample of this study (11.65 ± 0.52 Ma) and the K–Ar illite ages of the Arinem vein (9.4 ± 0.3 Ma and 8.8 ± 0.3 Ma) which resulted from a previous study. The age results suggest that the Papandayan district may have experienced multiple hydrothermal and mineralization events. This study, therefore, provides crucial age data to support future mineral exploration in the district. 相似文献
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The geochronology and genesis of the Qingyang batholith were investigated using40Ar/39Ar and Rb-Sr isotopic techniques. The Qingyang is a composite batholith consisting of two major rock types granodiorite and granite in the Yangtze fold belt.40Ar/39Ar spectra for biotite and amphibole separates are internally concordant. The concordance of the minerals and spectra indicate no thermal disturbance of the ages, and rapid cooling of the rocks. The granodiorite has an age of 137.6±1.4 m.y. and the granite 122.7±1.2 m.y. Whole-rock Rb-Sr analysis yields ages consistent with the40Ar/39Ar dates. Thus, the Qingyang batholith was formed in two major stages in the late Jurassic and early Cretaceous. The batholith is not Triassic as was previously proposed. Special40Ar/39Ar analysis of two granodiorite samples has precisely documented a 1.0 m.y. apparent age difference between these samples. Several factors could account for this difference, but different emplacement times seem most convincible. The granodiorite and granite show little variation in initial87Sr/86Sr ratio (about 0.7085). The high initial Sr ratios suggest that the magmas were formed by anatexis of older crustal materials. 相似文献
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新疆铁木尔特铅锌铜矿床锆石U-Pb和黑云母40Ar/39Ar年代学及其矿床成因意义 总被引:4,自引:4,他引:0
新疆铁木尔特铅锌铜矿床位于阿尔泰造山带南缘克兰盆地内,矿体呈脉状产于康布铁堡组火山岩地层中.为准确厘定其成岩成矿时代,作者分别对矿区赋矿火山岩和含矿石英脉中的云母进行了年龄测定,获得2件火山岩样品的锆石LA-ICP-MS U-Pb年龄分别为396±5Ma和405±5Ma,2件黑云母样品的40 Ar/39 Ar坪年龄分别为240±2Ma和235±2Ma,相应的39Ar/36Ar-40Ar/36Ar等时线年龄分别为238±3Ma和233±3Ma,与坪年龄在误差范围内一致.据此,认为矿区内康布铁堡组火山岩形成于396~405 Ma,成矿作用发生于235~240Ma;成岩年龄早于成矿年龄约165Ma.因此,铁木尔特铅锌铜矿为典型的后生矿床,而不可能是同生VMS型矿床.考虑到成矿年龄稍晚于区域大规模变质作用(约250Ma),推测成矿作用与阿尔泰造山带碰撞造山作用有关.结合矿床地质特征和流体包裹体特征,认为铁木尔特铅锌铜矿为典型的陆陆碰撞体制下形成的造山型矿床. 相似文献
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D. A. Lykhin V. I. Kovalenko V. V. Yarmolyuk E. B. Sal’nikova A. B. Kotov I. V. Anisimova Yu. V. Plotkina 《Geology of Ore Deposits》2010,52(2):114-137
The sequence of rock and ore formation at the Yermakovsky beryllium deposit is established on the basis of geological relationships
and Rb-Sr and U-Pb isotopic dating. The Rb-Sr age of amphibolitefacies regional metamorphism is determined for quartz-biotite-plagioclase
schist (266 ± 18 Ma) and dolomitized limestone (271 ± 12 Ma) of the Zun-Morino Formation. The U-Pb zircon age of premineral
gabbro is 332 ± 1 Ma. The Rb-Sr age of gabbro is somewhat younger (316 ± 8.3 Ma), probably owing to the effect of Hercynian
metamorphism on sedimentary rocks of the Zun-Morino Formation and gabbroic intrusion that cuts through it. The U-Pb zircon
age of gneissose granite of the Tsagan Complex at the Yermakovsky deposit is 316 ± 2 Ma, i.e., close to the age of metamorphism
superimposed on gabbro rocks. The U-Pb zircon age of preore granitic dikes, estimated at 325 ± 3 and 333 ± 10 Ma, is close
to the age of gabbro. The Ar/Ar age of amphibole from a granitic dike (302.5 ± 0.9 Ma) probably displays a later closure of
this isotopic system or the effect of superimposed processes. The Rb-Sr age of alkali syenite intrusion is 227 ± 1.9 Ma. The
U-Pb zircon age of alkali leucogranite stock pertaining to the Lesser Kunalei Complex is 226 ± 1 Ma, while the Rb-Sr age of
beryllium ore is 225.9 ± 1.2 Ma. These data indicate that beryllium ore mineralization is closely related in space and time
to igneous rocks of the Lesser Kunalei Complex dated at 224 ± 5 Ma and varying from gabbro to alkali granite in composition.
Thus, the preore Hercynian magmatism at the Yermakovsky deposit took place ∼330 Ma ago and was completed by metamorphism dated
at 271–266 Ma. The ore-forming magmatism and beryllium ore mineralization are dated at 224 ± 5 Ma. Postore magmatic activity
is scarce and probably correlated with tectonic melange of host rocks. 相似文献
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WU Cailai WANG Fusheng HAO Meiying SHI Rendeng Institute of Geology CAGS Beijing China WANG Zhihong Xi''''an Engineering College Xi''''an China QIAO Dewu Geological mechanics institute CAGS Beijing China 《Continental Dynamics》2000,(1)
1. Introduction Tongling district is situated in the southern part of the middle-lower reaches of the Yangtze River, Anhui province, China (Fig.1). It is one of the most important metal base in China, being rich copper material resources, also named "ancient copper capital of China". Many geologists have been working in petrology, tectonics and ore-deposits in the area for many years. Studies show none of the ore-deposits is not bound up with the intermediate-acid intrusion in the area (Ma… 相似文献
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南秦岭铧厂沟金矿床位于勉略缝合带以南的逆冲推覆带内,矿体呈透镜体或脉状产于新元古界蚀变细碧岩及泥盆系灰岩中,受控于近EW向叠瓦状逆冲断层及韧脆性剪切带。为了准确厘定其成矿时代,对矿区蚀变细碧岩型矿石和含矿石英脉中的铬云母进行了年龄测定。2件铬云母样品的~(40)Ar/~(39)Ar坪年龄分别为209.4±2.3 Ma和211.5±2.5 Ma,相应的等时线年龄211.4±3.6 Ma和215.3±3.9 Ma,与坪年龄在误差范围内一致。因此,铧厂沟金矿床的成矿年龄为212~209 Ma。结合铧厂沟金矿床的大地构造位置、矿床地质特征及成因类型,推测铧厂沟金矿床形成于扬子板块与秦岭微板块的碰撞过程,其成矿年龄代表了两板块发生碰撞的下限。 相似文献
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Ages determined with the 40Ar/39Ar isotopic system affirms the Early Cretaceous volcanic activity in the Barton Peninsula, King George Island, Antarctica. Two specimens of basaltic andesite collected from the lowermost volcanic sequence of the peninsula were irradiated and analyzed in different experiments, yielding an identical age spectrum, and two magmatic thermal events of the Early Cretaceous (120.4± 1.6 Ma, 119± 1 Ma) and Early Tertiary (53.1± 1.5 Ma, 52± 1 Ma) are distinguished. The former is interpreted to represent the primary cooling age of basaltic andesite, whereas the latter is the thermal reset age caused by the intrusion of granitic pluton. These new ages clearly indicate that volcanism was active during the Early Cretaceous on the Barton Peninsula and that intensive hydrothermal alteration and mineralization of Mesozoic volcanic rocks resulted from Tertiary magmatism. 相似文献